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Question
Evaluate: `int_0^π (x sin x)/(1 + cos^2x) dx`.
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Solution 1
I = `int_0^π (x sin x)/(1 + cos^2x) dx` ...(i)
= `int_0^π ((π - x) sin(π - x))/(1 + cos^2(π - x)) dx` ...`["Using" int_0^a f(x) dx = int_0^a f(a - x) dx]`
= `int_0^π ((π - x) sin x)/(1 + cos^2x) dx` ...(ii)
Adding (i) and (ii), we get,
2I = `int_0^π (x sin x)/(1 + cos^2x) dx + int_0^π ((π - x) sin x)/(1 + cos^2x) dx`
= `int_0^π ((x + π - x) sin x)/(1 + cos^2x) dx`
2I = `int_0^π (π sin x)/(1 + cos^2x) dx`
I = `π/2 int_0^π (sin x)/(1 + cos^2x) dx`
Let cos x = t, – sin x d x = dt
Also, x = 0, t = cos 0 = 1 and x = π, t = cos π = –1
I = `π/2 int_1^(-1) (-1)/(1 + t^2) dt`
I = `- π/2 [tan^-1 t]_1^(-1)`
= `- π/2 [tan^-1 (-1) - tan^(-1) (1)]`
= `- π/2 [- π/4 - π/4]`
= `π/2 xx (2π)/4`
I = `π^2/4`
Solution 2
I = `int_0^π (x sin x)/(1 + cos^2x) dx` ...(i)
On Applying Property
`int_0^π f(x) dx = int_0^π f(π - x) dx`
I = `int_0^π ((π - x)sin(π - x))/(1 + cos^2(π - x)) dx`
or, I = `int_0^π ((π - x)sin x)/(1 + cos^2x) dx` ...(ii)
Adding equation (i) and equation (ii), we get
2I = `int_0^π (π sin x)/(1 + cos^2x) dx`
I = `π/2 int_0^π (sin x)/(1 + cos^2x) dx`
Let cos x = t
– sin x dx = dt
sin x dx = – dt
When x = 0
t = cos 0 = 1
When x = π
t = cos π = –1
I = `- π/2 int_1^(-1) 1/(1 + t^2) dt`
Using Property
`int_a^b f(x)dx = -int_b^a f(x)dx`
I = `π/2 int_(-1)^1 1/(1 + t^2) dt`
I = `π/2 [tan^-1 t]_(-1)^1`
I = `π/2 [tan^-1 (1) - tan^-1 (-1)]`
= `π/2 [π/4 + (3π)/4]`
= `π/2 [+ (2π)/4]`
= `π^2/4`
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